Company Filing History:
Years Active: 2021
Title: Innovations by Feng Sheng in High Temperature Pipeline Design
Introduction
Feng Sheng is a notable inventor based in Beijing, China. He has made significant contributions to the field of engineering, particularly in the design of high temperature pipelines. His innovative approach addresses critical challenges in the industry, showcasing his expertise and dedication to advancing technology.
Latest Patents
Feng Sheng holds a patent for a "Method for resisting dynamic load in high temperature pipeline." This patent discloses a design method that includes several key steps. The first calculation step involves determining the temperature deformation displacement of each point of the pipeline. The second step calculates the modal result of the pipeline and the dynamic response displacement at each point. A comprehensive analysis step follows, where the temperature deformation displacement and the displacements of the vibration modes are analyzed to identify where rigid constraints are necessary. Finally, a determination step calculates the stress of the pipeline and the reaction force of the rigid constraint to ensure they meet design requirements.
Career Highlights
Feng Sheng is currently employed at China Nuclear Power Engineering Company Ltd., where he applies his innovative methods to enhance pipeline safety and efficiency. His work is crucial in ensuring that high temperature pipelines can withstand dynamic loads, which is essential for the reliability of nuclear power engineering.
Collaborations
Feng collaborates with talented colleagues such as Shubin Liu and Ming Wu. Their combined expertise fosters a productive environment for innovation and problem-solving in their projects.
Conclusion
Feng Sheng's contributions to high temperature pipeline design exemplify the importance of innovation in engineering. His patent reflects a deep understanding of the challenges faced in the industry and offers practical solutions. Through his work, he continues to influence the field positively.